\documentclass{article} \usepackage[latin1]{inputenc} \usepackage{fullpage} \begin{document} \begin{itemize} \section*{Papers} \subsection*{International Journals} \item[1] ``Thermal curvature perturbations in thermal inflation'', M Bastero-Gil, JM Gomes, JG Rosa, J. Cosmol. Astropart. Phys. {\bf 6}, 060 (2024). \item[2] ``Primordial black hole superradiance and evaporation in the string axiverse'', M Calzà, JG Rosa, F Serrano, J. High Energy Phys {\bf 140(5)}, 140 (2024). \item[3] ``Superradiant axion clouds around asteroid-mass primordial black holes'', NP Branco, RZ Ferreira, JG Rosa, J. Cosmol. Astropart. Phys. {\bf (4)}, 3 (2023). \item[4] ``Shrinking the Warm Little Inflaton'', P. Ferraz, J. Rosa, , J. High Energy Phys. {\bf 12}, 176 (2023). \item[5] ``Comparable dark matter and baryon abundances with a heavy dark sector'', J Rosa, D Silva, Phys. Lett. B {\bf 846}, 138178 (2023). \item[6] ``Warm inflation, neutrinos and dark matter: a minimal extension of the Standard Model'', M Levy, JG Rosa, LB Ventura, J. High Energy Phys. {\bf 12}, 176 (2022). \item[7] ``Superradiant pion clouds around primordial black holes'', Paulo B. Ferraz, Thomas W. Kephart, João G. Rosa, J. Cosmol. Astropart. Phys. {\bf 7}, 26 (2022). \item[8] ``Chemical trace XRF analysis to detect sharp force trauma in fresh and burned bone'', J Rosa, LAEB De Carvalho, MT Ferreira, D Goncalves, MPM Marques, FPSC Gil, Sci. Justice {\bf 62(5)} (2022). \item[9] ``Towards a reliable effective field theory of inflation'', Mar Bastero-Gil, Arjun Berera, Rudnei O. Ramos, JG Rosa, Phys. Lett. B {\bf 813}, 136055 (2021). \item[10] ``Warm Inflation, Neutrinos and Dark matter: a minimal extension of the Standard Model'', Miguel Levy, JG Rosa, Luís B. Ventura, J. High Energy Phys.. {\bf 12}, 176 (2021). \item[11] ``Can dark matter drive electroweak symmetry breaking?'', C Cosme, JG Rosa, O Bertolami, Phys. Rev. D {\bf 102(6)}, 063507 (2020). \item[12] ``ν-inflaton dark matter'', António Torres Manso, JG Rosa, JHEP {\bf 02}, 020 (2019). \item[13] ``Warm Little Inflaton becomes Dark Energy'', JG Rosa, Luís B. Ventura, Physics Letters B {\bf 798}, 134984 (2019). \item[14] ``Warm Little Inflaton becomes Cold Dark Matter'', JG Rosa, Luís B. Ventura, Physical Review Letters {\bf 122}, 161301 (2019). \item[15] ``Warm inflation within a supersymmetric distributed mass model'', Mar Bastero-Gil, Arjun Berera, Rafael Hernández-Jiménez, JG Rosa, Physical Review D {\bf 99}, 103520 (2019). \item[16] ``Scalar field dark matter with spontaneous symmetry breaking and the 3.5 keV line'', Catarina Cosme, JG Rosa, Orfeu Bertolami, Physics Letters B {\bf 781}, 639 (2018). \item[17] ``Scale-invariant scalar field dark matter through the Higgs portal'', Catarina Cosme, JG Rosa, Orfeu Bertolami, JHEP {\bf 05}, 129 (2018). \item[18] ``Inflation with Planck data: A survey of some exotic inflationary models'', Cláudio Gomes, Orfeu Bertolami, JG Rosa, Physical Review D {\bf 97}, 104061 (2018). \item[19] ``Stimulated Axion Decay in Superradiant Clouds around Primordial Black Holes'', JG Rosa, Thomas W. Kephart, Physical Review Letters {\bf 120}, 231102 (2018). \item[20] ``Dynamical and observational constraints on the Warm Little Inflaton scenario'', Mar Bastero-Gil, Arjun Berera, Rafael Hernández-Jiménez, JG Rosa, Physical Review D {\bf 98}, 083502 (2018). \item[21] ``The role of fluctuation-dissipation dynamics in setting initial conditions for inflation'', Mar Bastero-Gil, Arjun Berera, Robert Brandenberger, Ian G. Moss, Rudnei O. Ramos, JG Rosa, JCAP {\bf 01}, 002 (2018). \item[22] ``Adiabatic out-of-equilibrium solutions to the Boltzmann equation in warm inflation'', Mar Bastero-Gil, Arjun Berera, Rudnei O. Ramos, JG Rosa, JHEP {\bf 02}, 063 (2018). \item[23] ``Knotty inflation and the dimensionality of spacetime'', Arjun Berera, Roman V. Buniy, Thomas W. Kephart, Heinrich Pas, JG Rosa, European Physical Journal C {\bf 77}, 682 (2017). \item[24] ``Inflation in non-minimal matter-curvature coupling theories'', Cláudio Gomes, JG Rosa, Orfeu Bertolami, JCAP {\bf 06}, 021 (2017). \item[25] ``Superradiance in the sky'', JG Rosa, Physical Review D {\bf 95}, 064017 (2017). \item[26] ``Warm Little Inflaton'', Mar Bastero-Gil, Arjun Berera, Rudnei O. Ramos, JG Rosa, Physical Review Letters {\bf 117}, 151301 (2016). \item[27] ``Scalar field dark matter and the Higgs field'', Orfeu Bertolami, Catarina Cosme, JG Rosa, Physics Letters B {\bf 759}, 1 (2016). \section*{Communications} \subsection*{Invited} \item[28] ``Primordial black hole superradiance'', Rosa, J., Spanish Portuguese Relativity Meeting - EREP 2023, Bilbao - Spain, 21 July (2023). \item[29] ``Primordial black hole superradiance'', JG Rosa, Invited seminar at Dartmouth College, USA (online). 24 June 2021 (2021). \subsection*{Oral} \item[30] ``A solution to the dark matter coincidence problem with a heavy dark sector'', Rosa, J., IberiCos 2024, Ponte de Lima, Portugal, 3 April (2023). \item[31] ``Primordial black hole superradiance'', Rosa, J., New Horizons in Primordial Black Holes - NEHOP 2023, Naples - Italy, 21 June (2023). \item[32] ``Determining the spin of light primordial black holes with Hawking radiation'', João G. Rosa, XV Black Holes workshop, ISCTE-Lisboa, 19-20 December (2022). \item[33] ``Primordial black hole superradiance and evaporation: new probes of high-energy physics and cosmology'', João G. Rosa, EJCMS, Colombia, 12 July (2022). \item[34] ``Primordial black hole superradiance and evaporation: new probes of high-energy physics and cosmology'', João G. Rosa, Indian Institute of Technology Bombay, Mumbai, India, 8 July (2022). \item[35] ``Primordial black hole superradiant instabilities'', JG Rosa, XIV Black Holes Workshop, Universidade de Aveiro (21/12/2021) (2021). \item[36] ``Fourteen billion years in thirty minutes'', João Rosa, 6th IDPASC/LIP PhD Students Workshop (online, Portugal 26, June 2020 (2020). \section*{Other} \item[37] ``Thermal curvature perturbations in thermal inflation'', M. Bastero-Gil, J. Gomes, J. Rosa, arXiv:2301.11666 [hep-ph] (2023). \item[38] ``Determining the spin of light primordial black holes with Hawking radiation II: high spin regime'', M. Calza, J. Rosa, arXiv:2311.12930 [gr-qc] (2023). \item[39] ``Evaporating Kerr black holes as probes of new physics'', M. Calza, J. Rosa, arXiv:2312.09261 [hep-ph] (2023). \item[40] ``Primordial black hole superradiance and evaporation in the string axiverse'', M. Calza, J. Rosa, F. Serrano, arXiv:2306.09430 [hep-ph] (2023). \item[41] ``Spontaneous breaking of the Peccei-Quinn symmetry during warm inflation'', JG Rosa, Luís B. Ventura, submitted not yet accepted [arXiv: 2105.05771] (2022). \item[42] ``Evaporating primordial black holes, the string axiverse, and hot dark radiation'', Marco Calzà, John March-Russell, João G. Rosa, Submitted not yet accepted (2022). \item[43] ``Superradiant pion clouds around primordial black holes'', Paulo B. Ferraz, Thomas W. Kephart, JG Rosa, submitted not yet accepted [arXiv:2004.11303] (2022). \item[44] ``Participation in "XIII Black Holes Workshop"'', João Rosa, Instituto Superior Técnico, Portugal. 21-22 December 2020 (2020). \item[45] ``Participation in "Zooming in on Axions in the Early Universe" workshop'', João Rosa, CERN, Switzerland (online). 22-26 June 2020 (2020). \item[46] ``Participation in "6th IDPASC/LIP PhD Student Workshop" (online)'', João Rosa, Portugal. 22-26 June 2020 (0). \end{itemize} \end{document}